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Split file fetch.rs

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johannesd3 2021-02-28 11:36:15 +01:00
parent e71a004e93
commit ca255c17f0
2 changed files with 461 additions and 438 deletions
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444
audio/src/fetch.rs → audio/src/fetch/mod.rs
View file

@ -1,19 +1,21 @@
mod receive;
use std::cmp::{max, min};
use std::fs;
use std::io::{self, Read, Seek, SeekFrom, Write};
use std::io::{self, Read, Seek, SeekFrom};
use std::sync::atomic::{self, AtomicUsize};
use std::sync::{Arc, Condvar, Mutex};
use std::time::{Duration, Instant};
use byteorder::{BigEndian, ByteOrder, WriteBytesExt};
use bytes::Bytes;
use byteorder::{BigEndian, ByteOrder};
use futures_util::{future, StreamExt, TryFutureExt, TryStreamExt};
use librespot_core::channel::{Channel, ChannelData, ChannelError, ChannelHeaders};
use librespot_core::channel::{ChannelData, ChannelError, ChannelHeaders};
use librespot_core::session::Session;
use librespot_core::spotify_id::FileId;
use tempfile::NamedTempFile;
use tokio::sync::{mpsc, oneshot};
use self::receive::{audio_file_fetch, request_range};
use crate::range_set::{Range, RangeSet};
const MINIMUM_DOWNLOAD_SIZE: usize = 1024 * 16;
@ -388,440 +390,6 @@ impl AudioFileStreaming {
}
}
fn request_range(session: &Session, file: FileId, offset: usize, length: usize) -> Channel {
assert!(
offset % 4 == 0,
"Range request start positions must be aligned by 4 bytes."
);
assert!(
length % 4 == 0,
"Range request range lengths must be aligned by 4 bytes."
);
let start = offset / 4;
let end = (offset + length) / 4;
let (id, channel) = session.channel().allocate();
let mut data: Vec<u8> = Vec::new();
data.write_u16::<BigEndian>(id).unwrap();
data.write_u8(0).unwrap();
data.write_u8(1).unwrap();
data.write_u16::<BigEndian>(0x0000).unwrap();
data.write_u32::<BigEndian>(0x00000000).unwrap();
data.write_u32::<BigEndian>(0x00009C40).unwrap();
data.write_u32::<BigEndian>(0x00020000).unwrap();
data.write(&file.0).unwrap();
data.write_u32::<BigEndian>(start as u32).unwrap();
data.write_u32::<BigEndian>(end as u32).unwrap();
session.send_packet(0x8, data);
channel
}
struct PartialFileData {
offset: usize,
data: Bytes,
}
enum ReceivedData {
ResponseTimeMs(usize),
Data(PartialFileData),
}
async fn audio_file_fetch_receive_data(
shared: Arc<AudioFileShared>,
file_data_tx: mpsc::UnboundedSender<ReceivedData>,
mut data_rx: ChannelData,
initial_data_offset: usize,
initial_request_length: usize,
request_sent_time: Instant,
mut measure_ping_time: bool,
finish_tx: mpsc::UnboundedSender<()>,
) {
let mut data_offset = initial_data_offset;
let mut request_length = initial_request_length;
let result = loop {
let data = match data_rx.next().await {
Some(Ok(data)) => data,
Some(Err(e)) => break Err(e),
None => break Ok(()),
};
if measure_ping_time {
let duration = Instant::now() - request_sent_time;
let duration_ms: u64;
if 0.001 * (duration.as_millis() as f64) > MAXIMUM_ASSUMED_PING_TIME_SECONDS {
duration_ms = (MAXIMUM_ASSUMED_PING_TIME_SECONDS * 1000.0) as u64;
} else {
duration_ms = duration.as_millis() as u64;
}
let _ = file_data_tx.send(ReceivedData::ResponseTimeMs(duration_ms as usize));
measure_ping_time = false;
}
let data_size = data.len();
let _ = file_data_tx.send(ReceivedData::Data(PartialFileData {
offset: data_offset,
data,
}));
data_offset += data_size;
if request_length < data_size {
warn!(
"Data receiver for range {} (+{}) received more data from server than requested.",
initial_data_offset, initial_request_length
);
request_length = 0;
} else {
request_length -= data_size;
}
if request_length == 0 {
break Ok(());
}
};
if request_length > 0 {
let missing_range = Range::new(data_offset, request_length);
let mut download_status = shared.download_status.lock().unwrap();
download_status.requested.subtract_range(&missing_range);
shared.cond.notify_all();
}
let _ = finish_tx.send(());
if result.is_err() {
warn!(
"Error from channel for data receiver for range {} (+{}).",
initial_data_offset, initial_request_length
);
} else if request_length > 0 {
warn!(
"Data receiver for range {} (+{}) received less data from server than requested.",
initial_data_offset, initial_request_length
);
}
}
struct AudioFileFetch {
session: Session,
shared: Arc<AudioFileShared>,
output: Option<NamedTempFile>,
file_data_tx: mpsc::UnboundedSender<ReceivedData>,
complete_tx: Option<oneshot::Sender<NamedTempFile>>,
network_response_times_ms: Vec<usize>,
number_of_open_requests: usize,
download_finish_tx: mpsc::UnboundedSender<()>,
}
// Might be replaced by enum from std once stable
#[derive(PartialEq, Eq)]
enum ControlFlow {
Break,
Continue,
}
impl AudioFileFetch {
fn get_download_strategy(&mut self) -> DownloadStrategy {
*(self.shared.download_strategy.lock().unwrap())
}
fn download_range(&mut self, mut offset: usize, mut length: usize) {
if length < MINIMUM_DOWNLOAD_SIZE {
length = MINIMUM_DOWNLOAD_SIZE;
}
// ensure the values are within the bounds and align them by 4 for the spotify protocol.
if offset >= self.shared.file_size {
return;
}
if length == 0 {
return;
}
if offset + length > self.shared.file_size {
length = self.shared.file_size - offset;
}
if offset % 4 != 0 {
length += offset % 4;
offset -= offset % 4;
}
if length % 4 != 0 {
length += 4 - (length % 4);
}
let mut ranges_to_request = RangeSet::new();
ranges_to_request.add_range(&Range::new(offset, length));
let mut download_status = self.shared.download_status.lock().unwrap();
ranges_to_request.subtract_range_set(&download_status.downloaded);
ranges_to_request.subtract_range_set(&download_status.requested);
for range in ranges_to_request.iter() {
let (_headers, data) = request_range(
&self.session,
self.shared.file_id,
range.start,
range.length,
)
.split();
download_status.requested.add_range(range);
self.session.spawn(audio_file_fetch_receive_data(
self.shared.clone(),
self.file_data_tx.clone(),
data,
range.start,
range.length,
Instant::now(),
self.number_of_open_requests == 0,
self.download_finish_tx.clone(),
));
self.number_of_open_requests += 1;
}
}
fn pre_fetch_more_data(&mut self, bytes: usize, max_requests_to_send: usize) {
let mut bytes_to_go = bytes;
let mut requests_to_go = max_requests_to_send;
while bytes_to_go > 0 && requests_to_go > 0 {
// determine what is still missing
let mut missing_data = RangeSet::new();
missing_data.add_range(&Range::new(0, self.shared.file_size));
{
let download_status = self.shared.download_status.lock().unwrap();
missing_data.subtract_range_set(&download_status.downloaded);
missing_data.subtract_range_set(&download_status.requested);
}
// download data from after the current read position first
let mut tail_end = RangeSet::new();
let read_position = self.shared.read_position.load(atomic::Ordering::Relaxed);
tail_end.add_range(&Range::new(
read_position,
self.shared.file_size - read_position,
));
let tail_end = tail_end.intersection(&missing_data);
if !tail_end.is_empty() {
let range = tail_end.get_range(0);
let offset = range.start;
let length = min(range.length, bytes_to_go);
self.download_range(offset, length);
requests_to_go -= 1;
bytes_to_go -= length;
} else if !missing_data.is_empty() {
// ok, the tail is downloaded, download something fom the beginning.
let range = missing_data.get_range(0);
let offset = range.start;
let length = min(range.length, bytes_to_go);
self.download_range(offset, length);
requests_to_go -= 1;
bytes_to_go -= length;
} else {
return;
}
}
}
fn handle_file_data(&mut self, data: ReceivedData) -> ControlFlow {
match data {
ReceivedData::ResponseTimeMs(response_time_ms) => {
trace!("Ping time estimated as: {} ms.", response_time_ms);
// record the response time
self.network_response_times_ms.push(response_time_ms);
// prune old response times. Keep at most three.
while self.network_response_times_ms.len() > 3 {
self.network_response_times_ms.remove(0);
}
// stats::median is experimental. So we calculate the median of up to three ourselves.
let ping_time_ms: usize = match self.network_response_times_ms.len() {
1 => self.network_response_times_ms[0] as usize,
2 => {
((self.network_response_times_ms[0] + self.network_response_times_ms[1])
/ 2) as usize
}
3 => {
let mut times = self.network_response_times_ms.clone();
times.sort_unstable();
times[1]
}
_ => unreachable!(),
};
// store our new estimate for everyone to see
self.shared
.ping_time_ms
.store(ping_time_ms, atomic::Ordering::Relaxed);
}
ReceivedData::Data(data) => {
self.output
.as_mut()
.unwrap()
.seek(SeekFrom::Start(data.offset as u64))
.unwrap();
self.output
.as_mut()
.unwrap()
.write_all(data.data.as_ref())
.unwrap();
let mut download_status = self.shared.download_status.lock().unwrap();
let received_range = Range::new(data.offset, data.data.len());
download_status.downloaded.add_range(&received_range);
self.shared.cond.notify_all();
let full = download_status.downloaded.contained_length_from_value(0)
>= self.shared.file_size;
drop(download_status);
if full {
self.finish();
return ControlFlow::Break;
}
}
}
ControlFlow::Continue
}
fn handle_stream_loader_command(&mut self, cmd: StreamLoaderCommand) -> ControlFlow {
match cmd {
StreamLoaderCommand::Fetch(request) => {
self.download_range(request.start, request.length);
}
StreamLoaderCommand::RandomAccessMode() => {
*(self.shared.download_strategy.lock().unwrap()) = DownloadStrategy::RandomAccess();
}
StreamLoaderCommand::StreamMode() => {
*(self.shared.download_strategy.lock().unwrap()) = DownloadStrategy::Streaming();
self.trigger_preload();
}
StreamLoaderCommand::Close() => return ControlFlow::Break,
}
ControlFlow::Continue
}
fn finish(&mut self) {
let mut output = self.output.take().unwrap();
let complete_tx = self.complete_tx.take().unwrap();
output.seek(SeekFrom::Start(0)).unwrap();
let _ = complete_tx.send(output);
}
fn trigger_preload(&mut self) {
if self.number_of_open_requests >= MAX_PREFETCH_REQUESTS {
return;
}
let max_requests_to_send = MAX_PREFETCH_REQUESTS - self.number_of_open_requests;
let bytes_pending: usize = {
let download_status = self.shared.download_status.lock().unwrap();
download_status
.requested
.minus(&download_status.downloaded)
.len()
};
let ping_time_seconds =
0.001 * self.shared.ping_time_ms.load(atomic::Ordering::Relaxed) as f64;
let download_rate = self.session.channel().get_download_rate_estimate();
let desired_pending_bytes = max(
(PREFETCH_THRESHOLD_FACTOR * ping_time_seconds * self.shared.stream_data_rate as f64)
as usize,
(FAST_PREFETCH_THRESHOLD_FACTOR * ping_time_seconds * download_rate as f64) as usize,
);
if bytes_pending < desired_pending_bytes {
self.pre_fetch_more_data(desired_pending_bytes - bytes_pending, max_requests_to_send);
}
}
}
async fn audio_file_fetch(
session: Session,
shared: Arc<AudioFileShared>,
initial_data_rx: ChannelData,
initial_request_sent_time: Instant,
initial_data_length: usize,
output: NamedTempFile,
mut stream_loader_command_rx: mpsc::UnboundedReceiver<StreamLoaderCommand>,
complete_tx: oneshot::Sender<NamedTempFile>,
) {
let (file_data_tx, mut file_data_rx) = mpsc::unbounded_channel();
let (download_finish_tx, mut download_finish_rx) = mpsc::unbounded_channel();
{
let requested_range = Range::new(0, initial_data_length);
let mut download_status = shared.download_status.lock().unwrap();
download_status.requested.add_range(&requested_range);
}
session.spawn(audio_file_fetch_receive_data(
shared.clone(),
file_data_tx.clone(),
initial_data_rx,
0,
initial_data_length,
initial_request_sent_time,
true,
download_finish_tx.clone(),
));
let mut fetch = AudioFileFetch {
session,
shared,
output: Some(output),
file_data_tx,
complete_tx: Some(complete_tx),
network_response_times_ms: Vec::new(),
number_of_open_requests: 1,
download_finish_tx,
};
loop {
tokio::select! {
cmd = stream_loader_command_rx.recv() => {
if cmd.map_or(true, |cmd| fetch.handle_stream_loader_command(cmd) == ControlFlow::Break) {
break;
}
},
data = file_data_rx.recv() => {
if data.map_or(true, |data| fetch.handle_file_data(data) == ControlFlow::Break) {
break;
}
},
_ = download_finish_rx.recv() => {
fetch.number_of_open_requests -= 1;
if fetch.get_download_strategy() == DownloadStrategy::Streaming() {
fetch.trigger_preload();
}
}
}
}
}
impl Read for AudioFileStreaming {
fn read(&mut self, output: &mut [u8]) -> io::Result<usize> {
let offset = self.position as usize;

455
audio/src/fetch/receive.rs Normal file
View file

@ -0,0 +1,455 @@
use std::cmp::{max, min};
use std::io::{Seek, SeekFrom, Write};
use std::sync::{atomic, Arc};
use std::time::Instant;
use byteorder::{BigEndian, WriteBytesExt};
use bytes::Bytes;
use futures_util::StreamExt;
use librespot_core::channel::{Channel, ChannelData};
use librespot_core::session::Session;
use librespot_core::spotify_id::FileId;
use tempfile::NamedTempFile;
use tokio::sync::{mpsc, oneshot};
use crate::range_set::{Range, RangeSet};
use super::{AudioFileShared, DownloadStrategy, StreamLoaderCommand};
use super::{
FAST_PREFETCH_THRESHOLD_FACTOR, MAXIMUM_ASSUMED_PING_TIME_SECONDS, MAX_PREFETCH_REQUESTS,
MINIMUM_DOWNLOAD_SIZE, PREFETCH_THRESHOLD_FACTOR,
};
pub fn request_range(session: &Session, file: FileId, offset: usize, length: usize) -> Channel {
assert!(
offset % 4 == 0,
"Range request start positions must be aligned by 4 bytes."
);
assert!(
length % 4 == 0,
"Range request range lengths must be aligned by 4 bytes."
);
let start = offset / 4;
let end = (offset + length) / 4;
let (id, channel) = session.channel().allocate();
let mut data: Vec<u8> = Vec::new();
data.write_u16::<BigEndian>(id).unwrap();
data.write_u8(0).unwrap();
data.write_u8(1).unwrap();
data.write_u16::<BigEndian>(0x0000).unwrap();
data.write_u32::<BigEndian>(0x00000000).unwrap();
data.write_u32::<BigEndian>(0x00009C40).unwrap();
data.write_u32::<BigEndian>(0x00020000).unwrap();
data.write(&file.0).unwrap();
data.write_u32::<BigEndian>(start as u32).unwrap();
data.write_u32::<BigEndian>(end as u32).unwrap();
session.send_packet(0x8, data);
channel
}
struct PartialFileData {
offset: usize,
data: Bytes,
}
enum ReceivedData {
ResponseTimeMs(usize),
Data(PartialFileData),
}
async fn receive_data(
shared: Arc<AudioFileShared>,
file_data_tx: mpsc::UnboundedSender<ReceivedData>,
mut data_rx: ChannelData,
initial_data_offset: usize,
initial_request_length: usize,
request_sent_time: Instant,
mut measure_ping_time: bool,
finish_tx: mpsc::UnboundedSender<()>,
) {
let mut data_offset = initial_data_offset;
let mut request_length = initial_request_length;
let result = loop {
let data = match data_rx.next().await {
Some(Ok(data)) => data,
Some(Err(e)) => break Err(e),
None => break Ok(()),
};
if measure_ping_time {
let duration = Instant::now() - request_sent_time;
let duration_ms: u64;
if 0.001 * (duration.as_millis() as f64) > MAXIMUM_ASSUMED_PING_TIME_SECONDS {
duration_ms = (MAXIMUM_ASSUMED_PING_TIME_SECONDS * 1000.0) as u64;
} else {
duration_ms = duration.as_millis() as u64;
}
let _ = file_data_tx.send(ReceivedData::ResponseTimeMs(duration_ms as usize));
measure_ping_time = false;
}
let data_size = data.len();
let _ = file_data_tx.send(ReceivedData::Data(PartialFileData {
offset: data_offset,
data,
}));
data_offset += data_size;
if request_length < data_size {
warn!(
"Data receiver for range {} (+{}) received more data from server than requested.",
initial_data_offset, initial_request_length
);
request_length = 0;
} else {
request_length -= data_size;
}
if request_length == 0 {
break Ok(());
}
};
if request_length > 0 {
let missing_range = Range::new(data_offset, request_length);
let mut download_status = shared.download_status.lock().unwrap();
download_status.requested.subtract_range(&missing_range);
shared.cond.notify_all();
}
let _ = finish_tx.send(());
if result.is_err() {
warn!(
"Error from channel for data receiver for range {} (+{}).",
initial_data_offset, initial_request_length
);
} else if request_length > 0 {
warn!(
"Data receiver for range {} (+{}) received less data from server than requested.",
initial_data_offset, initial_request_length
);
}
}
struct AudioFileFetch {
session: Session,
shared: Arc<AudioFileShared>,
output: Option<NamedTempFile>,
file_data_tx: mpsc::UnboundedSender<ReceivedData>,
complete_tx: Option<oneshot::Sender<NamedTempFile>>,
network_response_times_ms: Vec<usize>,
number_of_open_requests: usize,
download_finish_tx: mpsc::UnboundedSender<()>,
}
// Might be replaced by enum from std once stable
#[derive(PartialEq, Eq)]
enum ControlFlow {
Break,
Continue,
}
impl AudioFileFetch {
fn get_download_strategy(&mut self) -> DownloadStrategy {
*(self.shared.download_strategy.lock().unwrap())
}
fn download_range(&mut self, mut offset: usize, mut length: usize) {
if length < MINIMUM_DOWNLOAD_SIZE {
length = MINIMUM_DOWNLOAD_SIZE;
}
// ensure the values are within the bounds and align them by 4 for the spotify protocol.
if offset >= self.shared.file_size {
return;
}
if length == 0 {
return;
}
if offset + length > self.shared.file_size {
length = self.shared.file_size - offset;
}
if offset % 4 != 0 {
length += offset % 4;
offset -= offset % 4;
}
if length % 4 != 0 {
length += 4 - (length % 4);
}
let mut ranges_to_request = RangeSet::new();
ranges_to_request.add_range(&Range::new(offset, length));
let mut download_status = self.shared.download_status.lock().unwrap();
ranges_to_request.subtract_range_set(&download_status.downloaded);
ranges_to_request.subtract_range_set(&download_status.requested);
for range in ranges_to_request.iter() {
let (_headers, data) = request_range(
&self.session,
self.shared.file_id,
range.start,
range.length,
)
.split();
download_status.requested.add_range(range);
self.session.spawn(receive_data(
self.shared.clone(),
self.file_data_tx.clone(),
data,
range.start,
range.length,
Instant::now(),
self.number_of_open_requests == 0,
self.download_finish_tx.clone(),
));
self.number_of_open_requests += 1;
}
}
fn pre_fetch_more_data(&mut self, bytes: usize, max_requests_to_send: usize) {
let mut bytes_to_go = bytes;
let mut requests_to_go = max_requests_to_send;
while bytes_to_go > 0 && requests_to_go > 0 {
// determine what is still missing
let mut missing_data = RangeSet::new();
missing_data.add_range(&Range::new(0, self.shared.file_size));
{
let download_status = self.shared.download_status.lock().unwrap();
missing_data.subtract_range_set(&download_status.downloaded);
missing_data.subtract_range_set(&download_status.requested);
}
// download data from after the current read position first
let mut tail_end = RangeSet::new();
let read_position = self.shared.read_position.load(atomic::Ordering::Relaxed);
tail_end.add_range(&Range::new(
read_position,
self.shared.file_size - read_position,
));
let tail_end = tail_end.intersection(&missing_data);
if !tail_end.is_empty() {
let range = tail_end.get_range(0);
let offset = range.start;
let length = min(range.length, bytes_to_go);
self.download_range(offset, length);
requests_to_go -= 1;
bytes_to_go -= length;
} else if !missing_data.is_empty() {
// ok, the tail is downloaded, download something fom the beginning.
let range = missing_data.get_range(0);
let offset = range.start;
let length = min(range.length, bytes_to_go);
self.download_range(offset, length);
requests_to_go -= 1;
bytes_to_go -= length;
} else {
return;
}
}
}
fn handle_file_data(&mut self, data: ReceivedData) -> ControlFlow {
match data {
ReceivedData::ResponseTimeMs(response_time_ms) => {
trace!("Ping time estimated as: {} ms.", response_time_ms);
// record the response time
self.network_response_times_ms.push(response_time_ms);
// prune old response times. Keep at most three.
while self.network_response_times_ms.len() > 3 {
self.network_response_times_ms.remove(0);
}
// stats::median is experimental. So we calculate the median of up to three ourselves.
let ping_time_ms: usize = match self.network_response_times_ms.len() {
1 => self.network_response_times_ms[0] as usize,
2 => {
((self.network_response_times_ms[0] + self.network_response_times_ms[1])
/ 2) as usize
}
3 => {
let mut times = self.network_response_times_ms.clone();
times.sort_unstable();
times[1]
}
_ => unreachable!(),
};
// store our new estimate for everyone to see
self.shared
.ping_time_ms
.store(ping_time_ms, atomic::Ordering::Relaxed);
}
ReceivedData::Data(data) => {
self.output
.as_mut()
.unwrap()
.seek(SeekFrom::Start(data.offset as u64))
.unwrap();
self.output
.as_mut()
.unwrap()
.write_all(data.data.as_ref())
.unwrap();
let mut download_status = self.shared.download_status.lock().unwrap();
let received_range = Range::new(data.offset, data.data.len());
download_status.downloaded.add_range(&received_range);
self.shared.cond.notify_all();
let full = download_status.downloaded.contained_length_from_value(0)
>= self.shared.file_size;
drop(download_status);
if full {
self.finish();
return ControlFlow::Break;
}
}
}
ControlFlow::Continue
}
fn handle_stream_loader_command(&mut self, cmd: StreamLoaderCommand) -> ControlFlow {
match cmd {
StreamLoaderCommand::Fetch(request) => {
self.download_range(request.start, request.length);
}
StreamLoaderCommand::RandomAccessMode() => {
*(self.shared.download_strategy.lock().unwrap()) = DownloadStrategy::RandomAccess();
}
StreamLoaderCommand::StreamMode() => {
*(self.shared.download_strategy.lock().unwrap()) = DownloadStrategy::Streaming();
self.trigger_preload();
}
StreamLoaderCommand::Close() => return ControlFlow::Break,
}
ControlFlow::Continue
}
fn finish(&mut self) {
let mut output = self.output.take().unwrap();
let complete_tx = self.complete_tx.take().unwrap();
output.seek(SeekFrom::Start(0)).unwrap();
let _ = complete_tx.send(output);
}
fn trigger_preload(&mut self) {
if self.number_of_open_requests >= MAX_PREFETCH_REQUESTS {
return;
}
let max_requests_to_send = MAX_PREFETCH_REQUESTS - self.number_of_open_requests;
let bytes_pending: usize = {
let download_status = self.shared.download_status.lock().unwrap();
download_status
.requested
.minus(&download_status.downloaded)
.len()
};
let ping_time_seconds =
0.001 * self.shared.ping_time_ms.load(atomic::Ordering::Relaxed) as f64;
let download_rate = self.session.channel().get_download_rate_estimate();
let desired_pending_bytes = max(
(PREFETCH_THRESHOLD_FACTOR * ping_time_seconds * self.shared.stream_data_rate as f64)
as usize,
(FAST_PREFETCH_THRESHOLD_FACTOR * ping_time_seconds * download_rate as f64) as usize,
);
if bytes_pending < desired_pending_bytes {
self.pre_fetch_more_data(desired_pending_bytes - bytes_pending, max_requests_to_send);
}
}
}
pub(super) async fn audio_file_fetch(
session: Session,
shared: Arc<AudioFileShared>,
initial_data_rx: ChannelData,
initial_request_sent_time: Instant,
initial_data_length: usize,
output: NamedTempFile,
mut stream_loader_command_rx: mpsc::UnboundedReceiver<StreamLoaderCommand>,
complete_tx: oneshot::Sender<NamedTempFile>,
) {
let (file_data_tx, mut file_data_rx) = mpsc::unbounded_channel();
let (download_finish_tx, mut download_finish_rx) = mpsc::unbounded_channel();
{
let requested_range = Range::new(0, initial_data_length);
let mut download_status = shared.download_status.lock().unwrap();
download_status.requested.add_range(&requested_range);
}
session.spawn(receive_data(
shared.clone(),
file_data_tx.clone(),
initial_data_rx,
0,
initial_data_length,
initial_request_sent_time,
true,
download_finish_tx.clone(),
));
let mut fetch = AudioFileFetch {
session,
shared,
output: Some(output),
file_data_tx,
complete_tx: Some(complete_tx),
network_response_times_ms: Vec::new(),
number_of_open_requests: 1,
download_finish_tx,
};
loop {
tokio::select! {
cmd = stream_loader_command_rx.recv() => {
if cmd.map_or(true, |cmd| fetch.handle_stream_loader_command(cmd) == ControlFlow::Break) {
break;
}
},
data = file_data_rx.recv() => {
if data.map_or(true, |data| fetch.handle_file_data(data) == ControlFlow::Break) {
break;
}
},
_ = download_finish_rx.recv() => {
fetch.number_of_open_requests -= 1;
if fetch.get_download_strategy() == DownloadStrategy::Streaming() {
fetch.trigger_preload();
}
}
}
}
}